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Exam 3 (cont.) 19. 8 of 12 Consider two carts of mass m and 4m, at...
[20 points] Two carts are moving on a level frictionless table as shown in the overhead...
[20 points] Two carts are moving on a level frictionless table as shown in the overhead view diagram at right. At the instant the carts pass the dashed line on the right, their kinetic energies are the same. The mass of cart A is greater than the mass of cart B mA mB A A. [3 pts] Is the initial speed of cart B greater than, less than, or equal to the initial speed of cart A? Explain your reasoning...
mA >mg [20 points) Two carts are moving on a level frictionless table as shown in...
mA >mg [20 points) Two carts are moving on a level frictionless table as shown in the overhead view diagram at right. At the instant the carts pass the dashed line on the right, their kinetic energies are the same. The mass of cart A is greater than the mass of cart B. direction of initial velocities A. [3 pts] Is the initial speed of cart B greater than, less than, or equal to the initial speed of cart A?...
4. Two carts collide and stick together in a lab experiment. Cart 1 has a mass...
4. Two carts collide and stick together in a lab experiment. Cart 1 has a mass of 550 g and a speed before the collision of 2.5 m/s. Cart 2 has a mass of 320 g and a speed of -4.1 m/s. Consider the 2 carts to be the system. A. What is the total momentum of the system before the collision? B. What is the velocity of the 2 carts after the collision? C. If the collision takes 0.15s,...
4. Two carts collide and stick together in a lab experiment. Cart 1 has a mass...
4. Two carts collide and stick together in a lab experiment. Cart 1 has a mass of 550 g and a speed before the collision of 2.5 m/s. Cart 2 has a mass of 320 g and a speed of -4.1 m/s. Consider the 2 carts to be the system. A. What is the total momentum of the system before the collision? B. What is the velocity of the 2 carts after the collision? C. If the collision takes 0.15s,...
You have two carts labeled A and B as shown in the figure above. Cart A...
You have two carts labeled A and B as shown in the figure above. Cart A is twice the mass of cart B and is moving with a velocity of 5 m/s towards cart B. Cart Bis stationary. The magnitude of the total linear momentum of the system before the collision is 50 kg m/s. After the collision, both the carts stick and move together. What is the magnitude of the final velocity of the system? VA=5 m/s Vp=0 А...
PART 4: Collisions where the carts make contact but do not stick together 0.250 kg 0.250...
PART 4: Collisions where the carts make contact but do not stick together 0.250 kg 0.250 kg 0.487 m/s 0.090 m/s Trial 7: In this part we will have the magnets of the blue Both carts same mass cart face the Velcro of the red cart. Because there are no magnets on the Velcro side of the red cart, we'll end up with the plastic of the blue cart hitting Total mass mb of blue cart the Velcro of the...
Momentum-1-During Complete the following problems in the Solution format. At the end of class, a problem...
Momentum-1-During Complete the following problems in the Solution format. At the end of class, a problem will be selected at random. Please upload the solution for that problem to the assignment on Moodle. Problem 1: An object (2 kg) has several constant forces applied to it for 3 seconds. R = 58N, F2 = -28N, W = - 19.69 N. and Fg = 22.99 N. a) Find the impulse ). (Answer: 98 +9.99 Ns) b) If the initial velocity of...
Impulse and Momentum Name: Date: TA's Name: Learning Objectives: 1. Understanding force ys time curves for...
Impulse and Momentum Name: Date: TA's Name: Learning Objectives: 1. Understanding force ys time curves for a collision. 2. Calculating impulse using force vs. time curves. 3. Understanding the relationship between impulse and momentum. 4. Applying conservation of momentum for inelastic collisions. Apparatus: Aluminum track, track legs, two smart carts, two cart stops, and small black rectangular cart masses. Part A: Collision of a moving cart with a fixed cart cart 1 Cart stop stationary cart cart stop Consider the...
m1: 0.49 kg, 0.35m/s m2:0.489 kg, 0.4m/s Make sure the cart magnets are facing each so...
m1: 0.49 kg, 0.35m/s
m2:0.489 kg, 0.4m/s
Make sure the cart magnets are facing each so that the action-reaction force between the carts is a force of repulsion. Give cart 1 an initial velocity (30 – 50 cm/s) toward cart 2 (initially at rest). Record the motion of each cart. V magnetic interaction 2 Velocity Curves Your velocity curves (v as a function of time) should have the following overall appearance: Velocity of Cart 2 Velocity of Cart 1 initial...
The same constant force, F, is applied to two blocks. The first block has a mass...
The same constant force, F, is applied to two blocks. The first
block has a mass of M and the second block has a mass of 2M. Both
blocks are initially at rest and the force acts on each of them for
the same period of time, t.
15) After time, t, which block has
more momentum?
a)The block of mass M
b)The block of mass 2M
c)They will have the same momentum
16) After time, t, which block has
more kinetic...
[20 points] Two carts are moving on a level frictionless table as shown in the overhead view diagram at right. At the instant the carts pass the dashed line on the right, their kinetic energies are the same. The mass of cart A is greater than the mass of cart B mA mB A A. [3 pts] Is the initial speed of cart B greater than, less than, or equal to the initial speed of cart A? Explain your reasoning...
mA >mg [20 points) Two carts are moving on a level frictionless table as shown in the overhead view diagram at right. At the instant the carts pass the dashed line on the right, their kinetic energies are the same. The mass of cart A is greater than the mass of cart B. direction of initial velocities A. [3 pts] Is the initial speed of cart B greater than, less than, or equal to the initial speed of cart A?...
You have two carts labeled A and B as shown in the figure above. Cart A is twice the mass of cart B and is moving with a velocity of 5 m/s towards cart B. Cart Bis stationary. The magnitude of the total linear momentum of the system before the collision is 50 kg m/s. After the collision, both the carts stick and move together. What is the magnitude of the final velocity of the system? VA=5 m/s Vp=0 А...
PART 4: Collisions where the carts make contact but do not stick together 0.250 kg 0.250 kg 0.487 m/s 0.090 m/s Trial 7: In this part we will have the magnets of the blue Both carts same mass cart face the Velcro of the red cart. Because there are no magnets on the Velcro side of the red cart, we'll end up with the plastic of the blue cart hitting Total mass mb of blue cart the Velcro of the...
Momentum-1-During Complete the following problems in the Solution format. At the end of class, a problem will be selected at random. Please upload the solution for that problem to the assignment on Moodle. Problem 1: An object (2 kg) has several constant forces applied to it for 3 seconds. R = 58N, F2 = -28N, W = - 19.69 N. and Fg = 22.99 N. a) Find the impulse ). (Answer: 98 +9.99 Ns) b) If the initial velocity of...
Impulse and Momentum Name: Date: TA's Name: Learning Objectives: 1. Understanding force ys time curves for a collision. 2. Calculating impulse using force vs. time curves. 3. Understanding the relationship between impulse and momentum. 4. Applying conservation of momentum for inelastic collisions. Apparatus: Aluminum track, track legs, two smart carts, two cart stops, and small black rectangular cart masses. Part A: Collision of a moving cart with a fixed cart cart 1 Cart stop stationary cart cart stop Consider the...
m1: 0.49 kg, 0.35m/s
m2:0.489 kg, 0.4m/s
Make sure the cart magnets are facing each so that the action-reaction force between the carts is a force of repulsion. Give cart 1 an initial velocity (30 – 50 cm/s) toward cart 2 (initially at rest). Record the motion of each cart. V magnetic interaction 2 Velocity Curves Your velocity curves (v as a function of time) should have the following overall appearance: Velocity of Cart 2 Velocity of Cart 1 initial...
The same constant force, F, is applied to two blocks. The first
block has a mass of M and the second block has a mass of 2M. Both
blocks are initially at rest and the force acts on each of them for
the same period of time, t.
15) After time, t, which block has
more momentum?
a)The block of mass M
b)The block of mass 2M
c)They will have the same momentum
16) After time, t, which block has
more kinetic...
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